Well, I got it to work by lowering the negative input resistors by an order of magnitude. It doesn't seem to matter in real life. Maybe the sim thinks the input capacitance is higher than it is in actuality?

Well, I got it to work by lowering the negative input resistors by an order of magnitude. It doesn't seem to matter in real life. Maybe the sim thinks the input capacitance is higher than it is in actuality?

You are using LTspice? If so, then I can probably help you. I make modifications to improve the convergence of the models. Load your 'asc' file. Then I'll take care of the problem on Monday. Messages (warning) about the size of the transistors are ignored.

@Bordodynov - Knock yourself out if you'd like. I ended up using a similar part out of the LT opamp database. Based on the opamp models I've seen in the past, this is a classic case of someone (postdoc maybe?) over analyzing something to the point that it's useless. Gotta love microchip... everything works - kind of... including the chips!

Not so simple. I modeled the generator current operational amplifier MOS transistor and the source of the reference voltage. I do it for the laser diode. I made a pulsed laser current control. I was looking for that cheapest operational amplifier. For this indicator, I won an operational amplifier from Microchip. But this amp turned excessive current spikes. Amplifier had no other firm of current emissions (at least in the simulation).